Temperature dependence of the mechanical and electrical properties of soft-doped lead zirconate titanate under compression and impact

Compared to a quasistatic environment, the electromechanical response of piezoelectric ceramics exhibits a considerably nonlinear behavior when subjected to impact. If the effect of ambient temperature is further considered, then the situation becomes more unpredictable. The thermal, mechanical, and...

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Veröffentlicht in:	Science China. Technological sciences 2023-12, Vol.66 (12), p.3562-3573
Hauptverfasser:	Wang, RuiZhi, Wang, ZhiQiang, Tang, EnLing, Peng, Hui, Yang, GuoLai, He, LiPing, Chen, Chuang, Han, YaFei
Format:	Artikel
Sprache:	eng
Schlagworte:	Ambient temperature Curie temperature Electrical properties Engineering Extreme values Fracture strength Impact analysis Lead zirconate titanates Piezoelectric ceramics Room temperature Temperature dependence
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container_title	Science China. Technological sciences
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creator	Wang, RuiZhi Wang, ZhiQiang Tang, EnLing Peng, Hui Yang, GuoLai He, LiPing Chen, Chuang Han, YaFei
description	Compared to a quasistatic environment, the electromechanical response of piezoelectric ceramics exhibits a considerably nonlinear behavior when subjected to impact. If the effect of ambient temperature is further considered, then the situation becomes more unpredictable. The thermal, mechanical, and electrical properties of soft-doped piezoelectric ceramics (PZT-5H) under compression and impact conditions were analyzed in the temperature range of −60°C to 200°C (below Curie temperature). The experimental results indicate that the fracture strength of PZT-5H has an extreme value near room temperature. The dynamic piezoelectric coefficient is strongly temperature dependent and has a maximum value near 100°C because of the “electric devil’s staircase effect” between polarization and domain switching threshold. These temperature-dependent data will enable the accurate prediction of the dynamic performance of devices by computer simulation.
doi_str_mv	10.1007/s11431-023-2402-2
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subjects	Ambient temperature Curie temperature Electrical properties Engineering Extreme values Fracture strength Impact analysis Lead zirconate titanates Piezoelectric ceramics Room temperature Temperature dependence
title	Temperature dependence of the mechanical and electrical properties of soft-doped lead zirconate titanate under compression and impact
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